Well-posedness and numerical schemes for McKean-Vlasov equations and interacting particle systems with discontinuous drift

06/26/2020
by   Gunther Leobacher, et al.
0

In this paper, we first establish well-posedness results of McKean-Vlasov stochastic differential equations (SDEs) and related particle systems with a drift coefficient that is discontinuous in the spatial component. The analysis is restricted to the one-dimensional case, and we only require a fairly mild condition on the diffusion coefficient, namely to be non-zero in a point of discontinuity, while we need to impose certain structural assumptions on the measure-dependence of the drift. Second, we study fully implementable Euler-Maruyama-type schemes for the particle system to approximate the solution of the McKean-Vlasov SDEs. Here, we will prove strong convergence results in terms of number of time-steps and number of particles. Due to the discontinuity of the drift, the convergence analysis is non-standard and the usual 1/2 strong convergence order known for the Lipschitz case cannot be recovered for all presented schemes.

READ FULL TEXT

Please sign up or login with your details

Forgot password? Click here to reset